Department of Plant Biology and Pathology, School of Environmental and Biological Sciences, Rutgers University, New Brunswick, NJ 08901-8550, USA.
Plant J. 2011 Jun;66(6):969-82. doi: 10.1111/j.1365-313X.2011.04554.x. Epub 2011 Apr 28.
Cysteine proteases such as caspases play important roles in programmed cell death (PCD) of metazoans. Plant metacaspases (MCPs), a family of cysteine proteases structurally related to caspases, have been hypothesized to be ancestors of metazoan caspases, despite their different substrate specificity. Arabidopsis thaliana contains six type II MCP genes (AtMCP2a-f). Whether and how these individual members are involved in controlling PCD in plants remains largely unknown. Here we investigated the function and regulation of AtMCP2d, the predominant and constitutively expressed member of type II MCPs, in stress-inducible PCD. Two AtMCP2d mutants (mcp2d-1 and mcp2d-3) exhibited reduced sensitivity to PCD-inducing mycotoxin fumonisin B1 as well as oxidative stress inducers, whereas AtMCP2d over-expressors were more sensitive to these agents, and exhibited accelerated cell-death progression. We found that AtMCP2d exclusively localizes to the cytosol, and its accumulation and self-processing patterns were age-dependent in leaves. Importantly, active proteolytic processing of AtMCP2d proteins dependent on its catalytic activity was observed in mature leaves during mycotoxin-induced cell death. We also found that mcp2d-1 leaves exhibited reduced cell death in response to Pseudomonas syringae carrying avirulent gene avrRpt2, and that self-processing of AtMCP2d was also detected in wild-type leaves in response to this pathogen. Furthermore, increases in processed AtMCP2d proteins were found to correlate with conditional cell-death induction in two lesion-mimic mutants (cpr22 and ssi4) that exhibit spontaneous cell-death phenotypes. Taken together, our data strongly suggest that AtMCP2d plays a positive regulatory role in biotic and abiotic stress-induced PCD.
半胱氨酸蛋白酶如胱天蛋白酶在多细胞生物的程序性细胞死亡 (PCD) 中发挥重要作用。植物的 metacaspases(MCPs)是一类结构上与胱天蛋白酶相关的半胱氨酸蛋白酶,被假设为多细胞动物胱天蛋白酶的祖先,尽管它们的底物特异性不同。拟南芥含有六个 II 型 MCP 基因(AtMCP2a-f)。这些个体成员是否以及如何参与控制植物中的 PCD 仍然知之甚少。在这里,我们研究了 II 型 MCP 中主要且组成型表达的成员 AtMCP2d 在应激诱导的 PCD 中的功能和调节。两个 AtMCP2d 突变体(mcp2d-1 和 mcp2d-3)对 PCD 诱导的真菌毒素腐霉素 B1 以及氧化应激诱导剂的敏感性降低,而 AtMCP2d 过表达体对这些试剂更敏感,并且表现出加速的细胞死亡进展。我们发现 AtMCP2d 仅定位于细胞质,并且其积累和自我处理模式在叶片中随年龄而变化。重要的是,在真菌毒素诱导的细胞死亡过程中,观察到依赖于其催化活性的 AtMCP2d 蛋白的活性蛋白水解处理。我们还发现,mcp2d-1 叶片对携带无毒基因 avrRpt2 的丁香假单胞菌的细胞死亡反应减少,并且在该病原体的响应中也检测到野生型叶片中的 AtMCP2d 自我处理。此外,发现处理后的 AtMCP2d 蛋白的增加与两个病变模拟突变体(cpr22 和 ssi4)中条件性细胞死亡诱导相关,这两个突变体表现出自发的细胞死亡表型。总之,我们的数据强烈表明 AtMCP2d 在生物和非生物应激诱导的 PCD 中发挥正调节作用。
